KR200187807Y1 - Underwater - Google Patents

Abstract

This paper is a design of an underwater beam that is installed to block rivers and rivers to secure agricultural or industrial water.

Conventional underwater beams were all composed of the same form as in FIG. 2 using concrete, and another form of a retractable underwater beam using steel is a disadvantage in that the installation cost is high.

In the present invention, to construct the underwater beam by using a configuration that can serve as an underwater beam while receiving less force of hydraulic pressure in constructing the underwater beam using concrete.

Conventional concrete underwater beams are constructed vertically and resisted at right angles to inflow mixed with stones, gravel, or tree trunks floating upstream. When large floods occur, the underwater beams are lost due to hydraulic pressure. It was a lot.

In this design, in order to solve this drawback, the concrete submerged beam is constructed as follows so as not to be lost in the large flood.

After constructing the foundation of concrete underwater beams, the structure of the body is composed of streamline as shown in FIG.

In this way, the inflow from the upstream flows through the underwater beam and falls on the apron. At this time, the molecular structure of the water splits and oxygen is introduced.

As the molecular structure of water is decomposed in the stream which is composed naturally in the river, oxygen flows into the river, so if the underwater beam of the present invention is installed in the river, the water flowing from the upstream falls due to the difference between the underwater beam and the apron. As it is induced, it can increase the amount of dissolved oxygen in water molecules.

In addition, sand gravel and tree trunks flowing from the upstream are sucked down to the downstream without being caught by the underwater beams, so that the planned water storage can always be secured inside the underwater beams.

Description

Underwater {.}

The present invention relates to an underwater beam for maintaining a certain amount of low water upstream by building in a waterway.

The underwater beams are constructed in the channel for the purpose of maintaining a constant amount of low water at the upstream side of the channel.

Fig. 3 shows a cross-sectional view of a submerged beam 10 provided in the related art, in which a body 12 having a predetermined height is constructed on a base 11 formed at the bottom of the channel. And this body 12 is formed in the upstream surface is a vertical plane and the downstream surface is formed in a hemispherical shape.

The conventional underwater beam 10 as described above is constructed to a certain height, so that it can maintain a certain amount of low water upstream, but the upstream surface of the body 12 is formed vertically so that it flows in from the upstream Sand, gravel, wood, as well as a variety of dirt is caught on the upstream side of the body 12 is deposited on the waterway bottom of the upstream side.

Therefore, the conventional underwater beam 10 is not only to lower the depth of the upstream side over time, but also to contaminate the water quality of the upstream side by the sedimentation sludge so that it does not function as an underwater beam.

The present invention was devised in view of the above-described conventional problems, and its purpose is to prevent sedimentation on the upstream side, to prevent contamination of water quality, and to greatly improve the water quality on the downstream side. It is to provide a tree that can be.

1 is a cross-sectional view of the underwater beam according to the present invention

Figure 2 a to d is a cross-sectional view showing a modification of the aeration projections in the underwater beam according to the present invention

3 is a cross-sectional view of a conventional underwater beam

※ Code explanation for main part of drawing

Underwater

2. Foundation 3, Unification

In the underwater beam provided by the present invention, the base is formed on the bottom of the waterway, and the body is formed on the base, characterized in that the upstream side of the body formed inclined from the upstream bottom to the upper side downstream.

The underwater beam of the present invention as described above, sand, gravel, wood flowing from the upstream side, as well as various kinds of dirt easily move to the downstream side over the inclined body so that no sedimentation phenomenon occurs in the upstream side.

Hereinafter, a specific embodiment of the present invention will be described in detail with reference to the drawings.

1 shows a cross-sectional view of the underwater beam 1 according to the present invention.

Reference numeral 2 is a foundation formed at the bottom of the waterway, and the foundation 2 is constructed with a body 3 of a certain height.

The body 3 is constructed so as to have a shape inclined from the bottom of the upstream to the top of the downstream side, and preferably the inclination angle between the body 3 and the downstream base 2 is 30 to 70 °.

The aeration projections 4 are formed on the downstream surface of the foundation 2 so that water falling over the body 3 collides to cause aeration. Here, the aeration projections 4 may be formed in various shapes as shown in FIG. 2.

The underwater beam (1) of the present invention as described above is because the body 3 is inclined state sand, gravel, wood flowing from the upstream side, as well as the various sludges flowing with water flowing in the downstream side (3) Beyond that will easily move downstream. Then, the water falling beyond the body 3 to the downstream side collides with the aeration projection 4 to cause an aeration phenomenon, thereby increasing the amount of dissolved oxygen.

Therefore, when the submersible beam 1 of the present invention is installed in the waterway, sand, gravel, wood, and various kinds of dirt easily move downwards beyond the body 3, so that no sedimentation phenomenon occurs in the upstream. In addition, the water flowing downstream is purified by the self-cleaning action by abundant dissolved oxygen. In addition, the underwater beam according to the present invention is greatly reduced in the resistance of the water received by the body, so there is no fear of losing it during flooding.

The underwater beam according to the present invention forms a slanted body so that sand, gravel, trees or various wastes flowing from the upstream side are easily passed to the downstream side, and aeration to cause aeration phenomenon in the water falling over the body on the downstream side It is a projection formed.

Therefore, the underwater beam of the present invention can prevent sedimentation on the upstream side, and thus can prevent contamination of the water quality on the upstream side, and can increase the dissolved oxygen content of water flowing downstream, thereby greatly improving the water quality on the downstream side. It can be done.

Claims (2)

An underwater beam in which a foundation is formed on the bottom of the waterway and the body is formed on the foundation, wherein the upstream surface of the body (3) is formed to be inclined from the upstream bottom to the upper part of the downstream. 2. The water according to claim 1, wherein the aeration projections 4 are formed on the downstream base 2 so that water falling beyond the body 3 downstream collides with the aeration projections 4 and causes aeration. An underwater beam characterized by increasing the amount of dissolved oxygen.